Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO2 free production of Hydrogen and solidification processes in em field

E. Baake; T. Fehling; D. Musaeva; T. Steinberg

doi:10.1088/1757-899X/228/1/012026

Details

Originalsprache	Englisch
Titel des Sammelwerks	Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany
Herausgeber (Verlag)	IOP Publishing Ltd.
Publikationsstatus	Veröffentlicht - 3 Aug. 2017
Veranstaltung	Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies, LIMTECH 2017 - Dresden, Deutschland Dauer: 19 Sept. 2017 → 20 Sept. 2017

Publikationsreihe

Name	IOP Conference Series: Materials Science and Engineering
Herausgeber (Verlag)	IOP Publishing Ltd.
Band	228
ISSN (Print)	1757-8981

Abstract

The paper describes the results of two experimental investigations aimed to extend the abilities of a neutron radiography to visualize two-phase processes in the electromagnetically (EM) driven melt flow. In the first experiment the Argon bubbly flow in the molten Gallium - a simulation of the CO₂ free production of Hydrogen process - was investigated and visualized. Abilities of EM stirring for control on the bubbles residence time in the melt were tested. The second experiment was directed to visualization of a solidification front formation under the influence of EM field. On the basis of the neutron shadow pictures the form of growing ingot, influenced by turbulent flows, was considered. In the both cases rotating permanent magnets were agitating the melt flow. The experimental results have shown that the neutron radiography can be successfully employed for obtaining the visual information about the described processes.

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Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field. / Baake, E.; Fehling, T.; Musaeva, D. et al.
Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany. IOP Publishing Ltd., 2017. 012026 (IOP Conference Series: Materials Science and Engineering; Band 228).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review

Baake, E, Fehling, T, Musaeva, D & Steinberg, T 2017, Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field. in Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany., 012026, IOP Conference Series: Materials Science and Engineering, Bd. 228, IOP Publishing Ltd., Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies, LIMTECH 2017, Dresden, Deutschland, 19 Sept. 2017. https://doi.org/10.1088/1757-899X/228/1/012026

Baake, E., Fehling, T., Musaeva, D., & Steinberg, T. (2017). Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field. In Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany Artikel 012026 (IOP Conference Series: Materials Science and Engineering; Band 228). IOP Publishing Ltd.. https://doi.org/10.1088/1757-899X/228/1/012026

Baake E, Fehling T, Musaeva D, Steinberg T. Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field. in Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany. IOP Publishing Ltd. 2017. 012026. (IOP Conference Series: Materials Science and Engineering). doi: 10.1088/1757-899X/228/1/012026

Baake, E. ; Fehling, T. ; Musaeva, D. et al. / Neutron radiography for visualization of liquid metal processes : Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field. Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies 19–20 September 2017, Dresden, Germany. IOP Publishing Ltd., 2017. (IOP Conference Series: Materials Science and Engineering).

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abstract = "The paper describes the results of two experimental investigations aimed to extend the abilities of a neutron radiography to visualize two-phase processes in the electromagnetically (EM) driven melt flow. In the first experiment the Argon bubbly flow in the molten Gallium - a simulation of the CO2 free production of Hydrogen process - was investigated and visualized. Abilities of EM stirring for control on the bubbles residence time in the melt were tested. The second experiment was directed to visualization of a solidification front formation under the influence of EM field. On the basis of the neutron shadow pictures the form of growing ingot, influenced by turbulent flows, was considered. In the both cases rotating permanent magnets were agitating the melt flow. The experimental results have shown that the neutron radiography can be successfully employed for obtaining the visual information about the described processes.",

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note = "Funding information: Authors wishing to acknowledge the Helmholtz Association in the framework of the Helmholtz-Alliance LIMTECH (Liquid Metal Technology) for financial support of the investigation and colleagues from the Paul Scherrer Institute for their help during the experiments.; Final LIMTECH Colloquium and International Symposium on Liquid Metal Technologies, LIMTECH 2017 ; Conference date: 19-09-2017 Through 20-09-2017",

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N2 - The paper describes the results of two experimental investigations aimed to extend the abilities of a neutron radiography to visualize two-phase processes in the electromagnetically (EM) driven melt flow. In the first experiment the Argon bubbly flow in the molten Gallium - a simulation of the CO2 free production of Hydrogen process - was investigated and visualized. Abilities of EM stirring for control on the bubbles residence time in the melt were tested. The second experiment was directed to visualization of a solidification front formation under the influence of EM field. On the basis of the neutron shadow pictures the form of growing ingot, influenced by turbulent flows, was considered. In the both cases rotating permanent magnets were agitating the melt flow. The experimental results have shown that the neutron radiography can be successfully employed for obtaining the visual information about the described processes.

AB - The paper describes the results of two experimental investigations aimed to extend the abilities of a neutron radiography to visualize two-phase processes in the electromagnetically (EM) driven melt flow. In the first experiment the Argon bubbly flow in the molten Gallium - a simulation of the CO2 free production of Hydrogen process - was investigated and visualized. Abilities of EM stirring for control on the bubbles residence time in the melt were tested. The second experiment was directed to visualization of a solidification front formation under the influence of EM field. On the basis of the neutron shadow pictures the form of growing ingot, influenced by turbulent flows, was considered. In the both cases rotating permanent magnets were agitating the melt flow. The experimental results have shown that the neutron radiography can be successfully employed for obtaining the visual information about the described processes.

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Research@Leibniz University

Neutron radiography for visualization of liquid metal processes: Bubbly flow for CO₂ free production of Hydrogen and solidification processes in em field

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